Interest that is compounded continuously seldom occurs at banks that you might deal with on a regular basis. However it is very useful for finding the maximum amount of money that can be earned at a particular interest rate. It is a very effective way to demonstrate how powerful compounding interest can be.

In working with interest that is compounded continuously, the same formula is always used. You should be careful to note that for interest compounded for any amount of time other than continuously, there is a different formula. The following applies only to interest compounded continuously.

The letter e is not a variable. It has a numeric value (approximately 2.718) although we do not usually use the value. We simply solve the problem using the “e” button on the calculator. So there are four variables in the equation and the problem will give us values for three of those variables and we will need to solve for the fourth.

Suppose $5000 is put into an account that pays 4% compounded continuously. How much will be in the account after 3 years?

We know the original amount (P) to be $5000. We know the interest rate (r) is 4% which is 0.04 in decimal form. The amount of time (t) is 3. Since this is interest compounded continuously, we will use the formula . Substituting the values we know into the equation and then solving gives

So after 3 years, the account is worth $6107.01. Because we are dealing with money in these problems, it makes sense to round to two decimal places. Notice that the formula gives us the total value of the account at the end of the three years. This is not just the interest amount, it is the total amount. The calculations should be done on the calculator by using the “e” button and not the decimal approximation for e. One way to think of this answer is that the most money that will be in an account after three years at 4% interest will be $6107.01

Examples

If interest is compounded continuously at 4.5% for 7 years, how much will a $2000 investment be worth at the end of 7 years?

What is your answer?

How long will it take $3000 to double if it is invested in an account that pays 3% compounded continuously?

What is your answer?

Examples

If $8000 is invested in an account that pays 4% interest compounded continuously, how much is in the account at the end of 10 years?

What is your answer?A. $11,934.60B. $436,785.20C. This problem cannot be solved with the information given.

How long will it take $4000 to triple if it is invested at 5% compounded continuously?